How a Symbiotic Relationship Works
Whenever two organisms of different species exist in close physical contact to the benefit of both organisms, they're in a symbiotic relationship. Symbiosis can occur between animals, plants, fungi or any combination thereof. Each organism contributes something that benefits the survival of the other, and in turn receives a survival benefit of its own.
Read on to learn more about symbiotic associations and how different animals and organisms benefit from this setup.
About Mutualistic Relationships
Symbiotic relationships feature two dissimilar organisms that benefit from one other. Some symbiotes are so closely intertwined that it's difficult to tell where one organism ends and the other begins. And in the case of plant/animal symbiotes, it can be difficult to tell whether the organisms are plants, animals, or a little bit of both.
Symbiotes aren't cartoon animals living and working together in perfect harmony. Most symbiotes have no idea that they're helping another creature. They're just surviving in whatever way works best for them, an instinctive behavior driven by natural selection.
You probably didn't realize that you're a symbiote yourself. Or that life on Earth probably wouldn't exist without symbiosis. Or that symbiosis might have been responsible for the evolution of multicellular life. Or that some scientists think the entire planet is one giant symbiotic organism.
Commenalism
Commenalism is also a relationship between two organisms. However, there is no mutual benefit. There is a host species that is not affected in any way — that is, it isn't harmed or doesn't gain anything from the interactions — and a second organism that benefits from the first.
Plant or Animal?
One of the strangest cases of symbiosis is that of the acoel flatworm, Convoluta roscoffensis. These tiny worms live along shorelines and look like masses of seaweed. The worms themselves are transparent, but within them live Platymonas algae, which contain chlorophyll and are capable of photosynthesis. They give the worms a green color.
The algae absorb sunlight through the worms’ clear skin and photosynthesize food — enough food that the worms have no functioning digestive tract or even working mouths. The algae even recycle the worms’ waste products and go through entire life cycles inside the worms’ bodies.
Sometimes symbiosis is pretty weird.
The Many Types of Symbiosis
The traditional definition of symbiosis is a mutualistic relationship involving close physical contact between two organisms that aren't the same species. Most biologists still adhere to this definition.
Some biologists, however, consider any interspecies relationship involving frequent close contact to be symbiosis, regardless of which of the organisms benefits. This includes commensalism, in which one species benefits and the other isn't affected much at all, and parasitism, which benefits one organism benefits and harms the other.
There are several forms of symbiosis. In some instances, like in obligate mutualism, the organisms require the symbiotic relationship for survival.
In the case of facultative symbiosis, the symbiotic relationship gives each organism a greater chance of survival but isn't absolutely necessary. Symbiotic relationships aren't always symmetrical — they can be obligate for one organism and facultative for the other.
The "close physical contact" part of the definition is worth looking at more closely.
In most cases, it's fairly straightforward — one species lives directly on another organism's body or even live inside it. But biologists also consider the biochemical relationship between two organisms. If they're generating and sharing enzymes, proteins, gases or other chemicals, then they can also said to be symbiotes.
Endosymbiotes live inside another organism. And by inside, biologists really mean inside — in between cells or within the body tissues (like the acoel flatworm). Ectosymbiotes live on the body of another organism.
Note that organisms that live within another's digestive tract are ectosymbiotes. Apparently living in someone's else's intestines doesn't qualify as a close enough relationship for biologists to call them endosymbiotes.
No Fungus, No Tree
Plants and fungi occupy completely different categories in taxonomy. Yet their lives are so utterly entwined that about 90 percent of all the plants in the world have their own fungal “partners” that allow them to survive [source: Wakeford]. The fungus in question is mycorrhizal.
Many mycorrhizal fungi live in close association with trees and other plants, drawing in nutrients from deep underground and providing them to the tree in exchange for a share of the energy (in the form of sugars) produced by the tree’s photosynthesis.
The mushrooms and toadstools often seen around the bases of trees are actually the reproductive organs of vast subterranean fungal networks that plants tap into to gain essential nutrients more efficiently.
The Evolution of Symbiosis
Evolution can seem pretty astonishing by itself. The varied and specific adaptations used by many organisms can seem at times to defy logic. Symbiosis only makes it seem more unlikely — how could two separate species evolve traits that just happen to fit so perfectly together?
In fact, many people who question evolution point to symbiosis as "proof" that these couldn't happen naturally.
Passing on the Most Useful Traits
Natural selection is the key to understanding how symbiosis evolves. In a given population, some organisms will have traits that are more advantageous to successful reproduction than others. Therefore, organisms with those traits are more likely to pass them along to succeeding generations, while those without them have a greater chance of dying before they reproduce.
Thus, over many generations, the population will tend to look more and more like the individuals with successful traits.
The success or failure of traits depends on population pressure — circumstances that make it more difficult for individuals to survive. Traits that allow a creature to take advantage of the other life forms in its environment will be just as successful as the traits that allow it to escape (or eat) them.
From 'Nice to Have' to 'Need to Have'
Most symbiotic relationships probably started out as facultative. Over many generations, the organisms came to depend more on symbiosis because natural selection favored those traits and not others.
Eventually, the symbiosis became the sole source of the food, shelter, enzyme or whatever else the symbiotes derived from one another.
Another way to look at symbiosis is as evolution's toolbox. Trees need the nutrients found deep within the soil. They could evolve more efficient root systems that would allow them to extract those nutrients themselves — in fact, many trees have.
But this can take a lot of time (tens of thousands of years or more) and might not happen at all. It just so happens that fungi already have this ability. When the two species find themselves in close proximity, it is much faster to evolve a way to incorporate the "tool" already available to the other organism than to reinvent the wheel.
Symbiogenesis
Some biologists are proponents of a theory known as symbiogenesis. This theory, which has fairly widespread acceptance, suggests that symbiosis is actually the key to the origins of complex life on Earth.
Symbiogenesis theorists think that increasingly diversified microbes entered into a series of symbiotic relationships, with different microbes performing the tasks vital to microbial existence.
These relationships evolved into a tightly integrated network of reciprocal microbes, each acting as a cog in the machine. They eventually evolved a casing enclosing them all. The microbes that made up this "team" became the parts of a cell: mitochondria, nuclei, ribosomes.
Bugs, Bats, Birds and Flowers
Many plants depend on animals to help them get pollen from the stamen of one plant to the ovum of another plant. These plants have evolved flowers that attract pollinators either by color or scent.
In a symbiotic relationship, the flower contains nectar, a sweet, energy-rich material that gives the insect, bat or bird a nutritional benefit. When the animal moves on to the next flower for more nectar, it inadvertently carries pollen there, accomplishing the plant’s goal of pollination.
Some animals have evolved very specialized features, such as shaped beaks or proboscises, to withdraw nectar efficiently. The flowers, in turn, may have a specific shape that only allows a certain species of animal to get nectar from them.
This allows the plant to monopolize that animal’s pollination efforts, since it won’t be flitting around to other species of plant.
Are You a Symbiote?
Are you a symbiote? Absolutely. Your digestive tract contains trillions of bacteria and other microorganisms. In fact, bacteria makes up most of the mass of fecal matter. These bacteria serve a number of functions, but they primarily break down things that our digestive system cannot process by itself.
For example, a lot of carbohydrates make their way to the intestines undigested. The bacteria there break the carbs down into various acids that your body can absorbed and process.
The result: We get more nutrients and calories from our food. Antibiotics can kill off a lot of these bacteria, reducing our digestive efficiency until they grow back [source: University of Glasgow]. The bacteria, for their part, get a steady supply of food delivered straight to them.
This digestive aid is a great benefit to people with limited access to food resources. They need to get every calorie they can from their food. However, scientists have been studying the contributions of human gut bacteria to widespread obesity in Western nations.
Experiments have shown that mice raised in a sterile environment, with no bacteria to aid digestion, remained lean even though they were fed a high-calorie, high-fat diet [source: PNAS]. Manipulating our own symbiotic relationship with gut bacteria could lead to the development of an effective diet pill.
The bacteria in your gut are pretty complex, providing benefits we don't fully understand yet. Some scientists think they might aid our immune system by providing "practice," allowing us to produce antibodies that protect us against more harmful microbes.
Indeed, gut bacteria themselves can be very harmful to us if they move out of the digestive tract into the bloodstream. They might also outcompete microbes that would be harmful if they were able to move in and live in our intestines.
Alien Symbiotes in Pop Culture
In the Marvel comics universe, an alien race known as the Symbiotes have repeatedly plagued the citizens of Earth, particularly the superhero Spider-Man. He encountered the first Symbiote when a cosmic being transported both of them — Spider-Man thought it was simply a black costume made of alien material before realizing it was a living creature.
The Symbiote later transferred to mentally disturbed reporter Eddie Brock, forming the monstrous creature known as Venom. Reproducing asexually via budding, the Symbiote’s first offspring bonded with a serial killer and became the creature known as Carnage.
Eventually, we learn that the Symbiote race was parasitic, invading entire planets, bonding to whatever living beings they found and consuming them. They may be responsible for the extinction of tens of thousands of species as they traveled from planet to planet across the galaxy. Spider-Man’s Symbiote was an insane outcast of its parasitic race.
Examples of Symbiotes
Symbiotic relationships aren't rare. Here are some particularly cool examples:
Cecropia Trees and Azteca Ants
Cecropia trees have hollow trunks, and inside they secrete a sugary liquid that's nutritious to ants. Azteca ants colonize the trees, filling the trunk with millions of ants, who receive shelter and food from the tree.
The tree is vulnerable to vines, which can grow on it, weigh it down or choke it. Azteca ants patrol the Cecropia and use their jaws to cut away any vines.
Cleaner Fish (and Birds)
There are many examples of fish that helpfully clean the parasitic bacteria and fungi from the bodies (or even from inside the mouths) of other fish. The pilot fish, client fish, cleaner wrasse and senorita fish all eat parasites from other species, gaining a nice meal.
The other fish gain protection from the damage these parasites would cause if left unchecked. They not only halt aggressive behaviors to allow cleaner fish to do their work, they also go out of their way to visit them.
Cleaner relationships exist out of the water as well. Egrets, oxpeckers, plovers and brown-headed cowbirds all spend a good portion of their lives riding around on other animals. The birds pick off insects, ticks and other parasites to eat. Plovers hop into the mouths of basking crocodiles to eat leeches.
Birds keep the animals (zebras, bison, warthogs, domestic cattle) clean of harmful insects. The cleaner birds also act as an alarm system, notifying their host when danger is present.
Honeyguides
A species of bird called the honeyguide prefers to eat beeswax and bee grubs. However, it isn't large enough to break open bee hives.
To accomplish this, it finds a nearby mammal, sometimes a human or a badger-like creature called a ratel. It then hops around to get attention and then leads its "assistant" to the hive. The assistant wants the honey, so it breaks open the hive to eat it, exposing the wax and grubs to the honeyguide.
The Rhizosphere
Plants need nitrogen. It's a vital nutrient, important to healthy growth. However, plants lack the mechanism to extract nitrogen from the air. They can get it from the ground if the ground happens to be fertile, but the supply can be easily depleted.
In a perfect example of the "evolution's toolbox" aspect of symbiosis, certain plants have found another species that does have the ability to extract (or "fix") nitrogen from the air, like nitrogen-fixing bacteria.
Legumes, a plant family that includes potatoes, peanuts and many others, bond with rhyzobia bacteria. The bacteria actually grows in nodules on the legumes' roots.
The legume provides the energy necessary for the rhyzobia to break the strong chemical bonds in free nitrogen, and the rhyzobia produce nitrogen for the host plant, plus enough to keep the surrounding soil fertile for years.
The Gaia Theory
The Gaia theory, first popularized in the 1970s, suggests that Earth itself is a living organism existing in symbiosis with all the other life forms living on it. This theory might explain the relatively stable environment on Earth that allows life to thrive.
Temperatures, atmospheric composition, food supplies — they may vary widely from one place to another and over time, but they tend to swing around stable midpoints.
One of the widely accepted definitions of life includes the ability to reproduce. Some Gaia theory proponents suggest that Gaia may, in fact, be capable of reproducing.
Humans are now capable of leaving Earth, and we might be just a few decades away from being able to travel to other planets. Colonists on Mars would be like seeds, spreading the Earth’s biosphere to other worlds.
Lots More Information
Related Articles
Sources
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Margulis, Lynn. Symbiotic Planet : A New Look at Evolution. Basic Books, March 2000.
Perry, Nicolette. Symbiosis: Nature in Partnership. Blandford, April 1990.
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Original article: How a Symbiotic Relationship Works
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